收稿日期: 2010-01-29
修回日期: 2010-02-12
网络出版日期: 2010-04-10
基金资助
国家自然科学基金项目“稀有气体作为油气田开发天然示踪剂的理论和应用基础研究”(编号:40472071)资助.
Deep Gas Pool-Forming Conditions in the Northwestern Qaidam Basin and Their Favorable Exploration Targets
Received date: 2010-01-29
Revised date: 2010-02-12
Online published: 2010-04-10
柴达木盆地西北区(柴西北区)具备深层气藏形成的条件。柴西北区存在E1+2、E13、E23和N1 4套气源岩,其有机质丰度可达到中等到好;凹陷中心有机质类型以Ⅰ或Ⅱ型为主,凹陷边缘有机质类型以Ⅲ型为主;4套气源岩在茫崖凹陷和大风山鼻隆局部范围均达到高过熟阶段;总生气量达到1 841.5×108 m3。柴西北区深层主要存在碎屑岩储层和裂缝性储层,前者主要分布于湖盆边缘的冲积扇相、河流洪泛平原相、扇三角洲相、辫状河相和滨浅湖相;后者主要分布于半深湖相。柴西北区深层存在3个生储盖组合,即:上生(E23—N1)下储(E23—E13)组合、下生(E23—N1)上储(N12—N22)组合和自生自储组合(E23—N1)。柴西北区深层区域性盖层主要是E23和N1湖泛时期形成的湖相泥岩。N12(23.5 Ma)以后,柴西北区深层构造圈闭基本形成,相对完整的背斜和断背斜圈闭有油泉子、南翼山、油墩子和开特米里克。深层气运移主要以断层为输导层的垂向运移为主;背斜和断背斜构造圈闭一翼或两翼发育断层,对深层气的垂向运移非常有利。柴西北区气源岩生气期在23.5 Ma(N12)以后,而大多数构造也是该时期以后形成的,因此柴西北区气源岩生气期与构造形成期同步。应用模糊评价方法,结合专家经验认为柴西北区深层气Ⅰ类勘探目标为油泉子构造,Ⅱ类勘探目标为南翼山构造,Ⅲ类勘探目标为油墩子构造和开特米里克构造。深层气藏勘探的主要风险在于:①深层构造落实程度较差;②深层储层类型、分布和储层物性还不十分清楚。
张晓宝, 殷启春, 马达德, 周世新, 汪立群, 王琪, 徐子远, 郑建京, 马力协, 李元奎 . 柴达木盆地西北区深层气成藏条件与有利勘探目标[J]. 天然气地球科学, 2010 , 21(2) : 201 -211 . DOI: 10.11764/j.issn.1672-1926.2010.02.201
The northwestern Qaidam basin has the deep natural gas pool-forming conditions. There are four sets of gas source formations, the E1+2, E13, E23and N1 which are medium to good source rocks based on organic matter abundance in the area. Organic matter mainly contains Ⅰ or Ⅱ type kerogen in the depression centre and Ⅲ type kerogen in the depression margin. Source rocks in the four formations are hyper-mature in the Mangya depression and partial area of the nose uplift of Dafengshan. The total volume of produced gas can be 1 841.5×108m3. The deep part of the northwestern Qaidam basin mainly contains clastic reservoirs and fractured reservoirs. The former are fluvial fan, river plain, fan delta, braid river delta and lake shore facies, the later are semi\|deep lake facies. The deep part of northwestern Qaidam basin has 3 source-|reservoir-cap rock combinations, one is upper source (E23—N1)-lower reservoir (E23—E13)combination, one is lower source (E23—N1)-upper reservoir ((N12—N22)pool formation, and the other is self-source and self-reservoir (E23—N1)。combination. The regional seal of the deep part of northwestern Qaidam basin is lacustrine mudstone which formed during lake\|flooding in E23 and N1, mainly distribute in the inner part of the basin. Since N12(23.5Ma), the deep structural traps, such as Youquanzi, Nanyishan, Youdunzi and Kaitemilike, have mostly formed as anticline and faulted anticline traps. Deep hydrocarbon migration are mainly through faulted transporting layer. It′s favorable for deep gas vertical migration while many cracks developed in those anticline′s wings. The period of generating gas was later than 23.5Ma(N12)in the most area of northwestern Qaidam basin, while most structural traps were formed after the period. Appling the method of fuzzy evaluation and professional experience, the authors consider Youquanzi as Class I exploration target of deep gas in the northwestern Qaidam basin, Nanyishan as Class Ⅱand Youdunzi and Kaitemilike as Class Ⅲ. The risk of deep gas exploration is (1) the reliability of deep structure is uncertain, and (2) the type, distribution and physical property of reservoirs are still not very clear.
[1] Tuo Jincai. Research status and advances in deep oil and gas exploration[J].Advance in Earth Sciences, 2002,17(4):565 -571. [妥进才. 深层油气研究现状及进展[J].地球科学进展,2002,17(4):565 -571.]
[2] Luo Mei, Jia Shuyuan. On the geotectonic evolution of the Chaidam basin and its adjacent areas[J].Journal of Chengdu College of Geology, 1991, 13(4):55 -64. [罗梅,贾疏源. 柴达木盆地及相邻地区地质构造演化[J].成都地质学院学报,1991,13(4):55 -64.]
[3] Chen Shiyue,Xu Fengyin,Peng Dehua.Characteristics of basement [JP]structures and their controls on hydrocarbon in Qaidam basin[J].Xinjiang Petroleum Geology, 2000, 21(3):175 -179. [陈世悦,徐凤银,彭德华. 柴达木盆地基底构造特征及其控油意义[J].新疆石油地质,2000,21(3):175 -179.]
[4] Huang Hanchun,Zhou Xianqiang,Wang Changli.Tectonic evolution [JP]of the Qaidam basin and the regularity of oil accumulation[J].Geological Review, 1989,35(4):314 -323. [黄汉纯,周显强,王长利. 柴达木盆地构造演化与石油富集规律[J].地质论评,1989,35(4):314 -323.]
[5] Wu Huaguo,Dai Junsheng,Yang Guoquan,et al.Types and [JP]oiliness of the anticlines in Qaidam basin[J].Journal of the University of Petroleum, 2001, 25(1):1 -3. [吴花果,戴俊生,杨国权,等. 柴达木盆地背斜构造类型及含油气性[J].石油大学学报,2001,25(1):1 -3.]
[6] Huang Difan, Zhang Dajiang, Li Jingchao, et al. The Tertiary oil source correlation in Qaidam basin[J].Acta Sedimentologica Sinica, 1989, 7(2):1 -13. [黄第藩,张大江,李晋超,等. 柴达木盆地第三系油源对比[J].沉积学报, 1989,7(2):1 -13.]
[7] Jin Qiang. Sedimentation and organic geochemistry of source rocks in the deep and shallow -water saline lakes in Tertiary, China[J].Acta Sedimentologica Sinica, 1991, 9(2):176 -184. [金强. 深水和浅水盐湖相生油岩沉积及其石油地球化学特征[J].沉积学报, 1991,9(2 ):176 -184.]
[8] Huang Xinzhen,Shao Hongshun,Gu Shusong,et al. Hydrocarbon [JP]Generation and Exploration for Oil and Gas in Qaidam Basin[M].Lanzhou: Gansu Science & Technology Press, 1993. [黄杏珍,邵宏舜,顾树松,等. 柴达木盆地的油气形成与寻找油气田方向[M].兰州:甘肃科学技术出版社,1993.]
[9] Zhang Xiaobao, Ma Liyuan, Meng Zifang, et al. Characteristics of C isotope, genesis and distribution of Tertiary salt lake face natural gas in western Qaidam basin[J].Science in China:Serial D,2002, 32(7):598 -608. [张晓宝,马立元,孟自芳,等. 柴达木盆地西部第三系盐湖相天然气碳同位素特征、成因与分布[J].中国科学:D辑,2002,32(7):598 -608.]
[10] Qi Yaling,Wang Liqun,Peng Dehua,et al.Predicting the distribution of natural gas genetic types in Tertiary Formation in west Qaidam basin[J].Acta Sedimentologica Sinica, 2006, 24(6):910 -916. [漆亚玲,汪立群,彭德华,等. 柴达木盆地西部第三系天然气成因类型分布预测[J].沉积学报,2006,24(6):910 -916.]
[11] Jiang Xiaoqing, Lv Zonglun, Sun Bainian, et al. Evaluation of hydrocarbon source rocks in Xiaoliangshan sag, western Qaidam basin[J].Natural Gas Geoscience, 2009, 20(3):405 -410. [江小青,吕宗伦,孙柏年,等. 柴达木盆地西部小梁山凹陷烃源岩评价[J].天然气地球科学,2009,20(3):405 -410.]
[12] Li Yuankui. Investigation of feature and distribution law of fracture oil and gas reservoir in Nanyishan mountain[J].Natural Gas Industry, 2000, 20(3):22 -23. [李元奎. 南翼山裂缝性油气藏特征及分布规律探讨[J].天然气工业,2000,20(3):22 -23.]
[13] Wang Mingru. Three Mesozoic -Cenozoic hydrocarbon -bearing systems and the exploration strategies of them[J].Journal of Xi′an Petroleum Institute:Natural Science Edition,2001, 11(6):8 -12. [王明儒. 柴达木盆地中新生代三大含油气系统及勘探焦点[J].西安石油学院学报:自然科学版,2001,11(6):8 -12.]
[14] Men Xiangyong, Wang Zhizhi, Wu Fengcheng, et al. Petroleum geology conditions and exploration perspective in central south Qaidam basin[J].Petroleum Exploration and Development, 2002,29(1):61 -64. [门相勇,王智治,吴丰成,等. 柴达木盆地中南部第三系石油地质条件与勘探前景[J].石油勘探与开发,2002,29(1):61 -64.]
[15] Xu Fengyin, Peng Dehua, Hou Enke. Hydrocarbon accumulation and exploration potential in Qaidam basin[J].Acta Petrolei Sinica, 2003, 24(4):1 -6. [徐凤银,彭德华,侯恩科. 柴达木盆地油气聚集规律及勘探前景[J].石油学报,2003,24(4),1 -6.]
[16] Dong Wenju, Zhang Daowei, Shao Yi, et al. Sedimentary microfacies [JP]and evolution of sand members Ⅰ and Ⅱ of lower Ganchaigou Formation in Hongliuquan area of Qaidam basin[J].Natural Gas Geoscience, 2008, 19(1):111 -115. [董文举, 张道伟, 邵毅, 等. 柴达木盆地红柳泉地区下干柴沟组E13I和E13Ⅱ砂层组沉积微相及沉积演化研究[J].天然气地球科学, 2008, 19(1):111 -115.]
[17] Ma Yongfang. Sedimentation analysis of the central and western [JP]Qaidam basin[J].Coal Geology of China, 1994,6(4):32 -35. [马永芳. 柴达木盆地中西部沉积特征浅析[J].中国煤田地质,1994,6(4):32 -35.]
[18] Cao Haifang, Xia Bin, Fan Liyong, et al. Formation mechanism and distribution rule of Nanyishan fractured reservoirs[J].Natural Gas Geoscience, 2007, 18(1):71 -73. [曹海防,夏斌,范立勇,等. 柴达木盆地西部南翼山裂缝油气藏形成机制及分布规律[J].天然气地球科学, 2007, 18(1):71 -73.]
[19] Cao Guoqiang, Chen Shiyue, Xu Fengyin, et al. Ceno -Mesozoic sedimentary and tectonic evolution in the western Qaidam basin[J].Chinese Geology, 2005,32(1):33 -40. [曹国强,陈世悦,徐凤银,等. 柴达木盆地西部中新生代沉积构造演化[J].中国地质,2005,32(1):33 -40.]
[20] Luo Qun, Pang Xiongqi. The characteristics of fault system and its [JP]control role to petroleum zone in Qaidam basin[J].Journal of Southwest Petroleum Institute, 2003, 25(1):1 -5. [罗群,庞雄奇. 柴达木盆地断裂特征与油气区带成藏规律[J].西南石油学院学报,2003,25(1):1 -5.]
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